Finding of an Unusually Colored Sporocyst of the Genus Leucochloridium in a Succinea putris Snail

Abstract— A Leucochloridium sp. Carus, 1835 sporocyst with a mature colored broodsac was found in a Succinea putris L., 1758 snail in the Boksitogorsk district of Leningrad Region (Russia). The pigmentation of the sporocyst’s broodsac was different from those of other Leucochloridium Carus, 1835 species previously described for Europe. The obtained sporocyst is most similar by the coloration of its broodsac to the trematodes of the same genus from Japan. The genotyping of the investigated sporocyst by the rDNA gene fragments (complete ITS1, ITS2, 5.8S and partial 18S and 28S sequences) was conducted. Genetic distances between the obtained sporocyst and the previously described species of the genus Leucochloridium were higher than intraspecific ones in the most cases. These data and the data of morphological analysis imply that the investigated sporocyst belongs to a separate species of the Leucochloridium genus, previously not described in the European region.

As a rule, trematodes are identified based on the marita and cercaria stages.However, parthenites of trematodes of the genus Leucochloridium Carus, 1835 (Trematoda, Leucochloridiidae) have a morphology that allows species identification based on sporocysts.Sporocysts of different species of this genus differ in shape and pigmentation of mature broodsacs (see [1]).Validity of these morphological traits was confirmed by molecular genetic analysis [2][3][4].
In the course of our long-term monitoring of trematode infection in Succinea putris L., 1758 (Gastropoda, Succineidae) carried out since 2008 in the European part of Russia and in Belarus, we have detected three species of the genus Leucochloridium: L. paradoxum Carus, 1835, L. vogtianum Baudon, 1881, and L. perturbatum Pojmanska, 1969.
The most common findings were sporocysts of L. paradoxum characterized by green broodsac pigmentation.The pigmentation pattern exhibited certain variability [5].
In 2017, in the Boksitogorsk district of Leningrad Region, we found a sporocyst with a mature broodsac that also had green pigmentation, but its pattern differed significantly from those described for L. paradoxum from Europe by other authors and in our previous works [2,4,6,7].At the same time, the broodsac pigmentation resembled the pattern described for Leucochloridium spp.from Japan [8,9].To determine the species affiliation of the discovered sporocyst, we performed a molecular genetic analysis.

MATERIALS AND METHODS
Succinea putris snails infected with sporocysts of Leucochloridium sp. and L. paradoxum were found in Leningrad Region (59°28′36.6N, 33°48′21.0E).The sporocyst of L. paradoxum was identified previously based on the morphological traits, as well as by genotyping of a mitochondrial gene fragment of cytochrome c oxidase subunit I (GenBank MZ676717.2) [10].Broodsac pigmentation patterns were analyzed using a Leica M165C stereomicroscope and a Leica DFC290 camera.The Leucochloridium sp.sporocyst isolated from the snail was stored at -80°C.DNA was isolated using a DNA-sorb-C-M kit (cat.no.K1-6-50-Mod; AmpliSens, Russia) according to the manufacturer's instructions.The sporocyst was genotyped based on the rDNA fragment including the complete ITS1, ITS2, and 5.8S rRNA gene sequences, as well as partial 18S and 28S rRNA gene sequences.PCR was performed with three pairs of specific primers: Br/digl1 [11], dig12/1500R [12], and RiboN_F/L2 [3].The RiboN_F primer was designed using the Primer 3 software [13] based on the nucleotide sequence of L. paradoxum (GenBank, KP938187.1).PCR was carried out using Taq DNA polymerase (cat.no.EP0401; Thermo Fisher Scientific, Lithuania) with annealing temperatures of 54.7, 56.0, and a Laboratory of Experimental Zoology, Herzen State Pedagogical University, St. Petersburg, 191186 Russia *e-mail: rregina.usmanova@gmail.com64.0°C, respectively, according to the protocol described previously [14].The PCR products were isolated and purified from an agarose gel using a Wizard® SV Gel and PCR Clean-Up System (cat.no.A9281; Promega, United States) according to the manufacturer's instructions.Sequencing by Sanger was carried out on a commercial basis by Syntol (Russia).
Genetic distances (p-distances) were calculated with MEGA v. 10.2.4 [16].The mathematical model used to calculate genetic distances for phylogeny reconstruction was selected based on the Akaike information criterion and the Bayesian information criterion with jModelTest v. 2.1.7software [17].Phylogeny reconstruction based on the ITS1-5.8S-ITS2rDNA region used a Jukes-Cantor model with two parameters [18].Phylogeny reconstruction using the maximum likelihood method (ML) was carried out with MEGA v. 7.0 software [19].Bootstrap support values for the ML trees were calculated based on 1000 replicates [20].Bayesian inference (BI) was calculated with BEAST v. 2.5 [21] by simultaneously launching four chains of 10 7 generations and selecting every 1000th generation.Significance of the BI tree topology was estimated based on the a posteriori probability values.

RESULTS AND DISCUSSION
Morphological analysis.The principal morphological traits used for species identification of Leucochloridium trematode sporocysts is the shape and coloration of mature broodsacs [2,4,6].The sporocyst concerned featured an immature (uncolored) and a mature (pigmented) broodsacs (Fig. 1a).
The distal part of the mature broodsac had brown pigmentation.In the next zone, dark protuberant spots and two transverse white bands were seen on the brown-green background.Below, there was an area with a mosaic pattern of green squares on a white background.Adjacent to this area was a distinct dis-  Previously, sporocysts with broodsacs featuring this type of pigmentation were not found in Europe.The most similar pigmentation pattern was described for sporocysts of L. paradoxum [2, 4-7, 22, 23], which are colored predominantly green and brown (Fig. 1b).However, the broodsacs of L. paradoxum sporocysts from Europe do not exhibit a brown band next to the green zone (Fig. 1b).Furthermore, the proximal part of L. paradoxum broodsacs has a different pigmentation pattern (continuous bands on a light background) and features no circular folds.
Among the known descriptions of sporocyst broodsacs of the genus Leucochloridium, the pigmentation pattern of the sporocyst discovered in Boksitogorsky district resembled most the sporocysts found in Japan and identified as Leucochloridium sp.[9] and L. paradoxum [8].

Molecular genetic analysis.
To investigate the discovered Leucochloridium sp.sporocyst, we obtained a 1548 bp fragment of rDNA (GenBank, OP709269) that included the complete nucleotide sequences of ITS1, ITS2, and the 5.8S rRNA gene, as well as partial sequences of the 18S and 28S rRNA genes.
In the phylogenetic tree based on the ITS1-5.8S-ITS2rDNA fragment (1146 bp), species of the family Leucochloridiidae formed a single clade (Fig. 2).Species of the genera Urogonimus Monticell, 1888, Urotocus Looss, 1899, and Leucochloridium formed separate branches.The sporocyst under study was in the same group as L. paradoxum from Japan, Leucochloridium sp. from Okinawa, and the green sporocyst from Europe; its closest neighbor was L. vogtianum.
The genetic distances between the sequences used (Fig. 2) are presented in Table 1.To compare the differences among specimens, we calculated mean intraspecific genetic distances for species of the genus Leucochloridium (Table 2).The sequence utilized for this analysis was shorter than the one used for the phylog- eny reconstruction (Fig. 2): this way, a larger number of sequences could be included in the alignment.
The mean genetic distances between the sporocyst studied and other Leucochloridium species based on the ITS1-5.8S-ITS2rDNA fragment were greater than the mean intraspecific distances for Leucochloridium members (Table 2).The only exceptions were L. vogtianum and Leucochloridium sp. from Okinawa: the genetic distances between our specimen and each of these trematodes were smaller than the mean intraspecific distance.The sporocyst studied had the largest distances from L. perturbatum and L. paradoxum; they were greater than the mean interspecific distance in this genus.
We also obtained a short sequence (339 bp) representing 28S rDNA.This genome fragment is fairly conservative: the genetic distances by this marker between different species of the genus Leucochloridium do not exceed 0.009 [8].Our analysis revealed a small number of substitutions (one to four) within this sequence fragment (Table 3).The sporocyst under study had the most difference from L. vogtianum and the least difference from L. paradoxum from Japan.This result disagrees with the data obtained for the fragment including internal transcribed spacers and 5.8S rDNA, which was probably due to the conservativity of the 28S fragment studied, as well as to its short length.
The results of phylogenetic analysis based on the ITS1-5.8S-ITS2rDNA fragment suggest that the closest relations of the found sporocyst are Leucochloridium sp. from Okinawa [8] and L. vogtianum.However, the broodsacs of these sporocysts differ significantly in their morphology (shape and/or coloration) from the broodsac of the sporocyst studied.The parthenites of L. paradoxum from Japan [8] resembled the one found in our work in broodsac pigmentation, but in the phylogenetic tree it was more distant than sporocysts with dissimilar broodsac coloration.
The data obtained by morphological and molecular genetic analysis of the found sporocyst may indicate either that some of the known species has a high degree of morphological variation or that this sporocyst represents a separate Leucochloridium species that has not been described previously in the European region.In our opinion, the latter possibility is more likely, because all genotyped species of the genus Leucochloridium had a high level of intraspecies rDNA conservativeness [3,8,24] and no cases of basically different coloration in sporocysts of the same species have been described in available publications.
brown color.The rest of the broodsac had yellow pigmentation, and the sporocyst covers formed here circular folds colored with interrupted brown stripes.

Fig. 2 . 1 FJ852563. 1
Fig. 2. The Bayesian phylogenetic reconstruction based on nucleotide sequences of ITS1-5.8S-ITS2rDNA (1279 bp) with the use of Jukes-Cantor model.The tree obtained by the maximum likelihood method had the same topology.Numbers at the the branch nodes indicate posterior probabilities for BI and bootstrap support percentages for 1000 replicates for ML.GenBank numbers of the sequences are shown.